# legacy.py 17/03/2016 D.J.Whale # # Note: This is a test harness only, to prove that the underlying OOK # radio support for legacy plugs is working. # Please don't use this as a basis for building your applications from. # Another higher level device API will be designed once this has been # completely verified. import time from energenie import encoder # moving over to the new, faster, C radio driver from energenie import radio2 as radio # How many times to send messages in the driver fast loop # Present version of driver limits to 15 # but this restriction will be lifted soon # 4800bps, burst transmit time at 15 repeats is 400mS # 1 payload takes 26ms # 75 payloads takes 2s INNER_TIMES = 16 # how many times to send messages in the API slow loop # this is slower than using the driver, and will introduce tiny # inter-burst delays OUTER_TIMES = 1 # delay in seconds between each application switch message APP_DELAY = 1 #----- TEST APPLICATION ------------------------------------------------------- # Prebuild all possible message up front, to make switching code faster HOUSE_ADDRESS = None # Use default energenie quasi-random address 0x6C6C6 ##HOUSE_ADDRESS = 0xA0170 # Captured address of David's RF hand controller ALL_ON = encoder.build_switch_msg(True, house_address=HOUSE_ADDRESS) ONE_ON = encoder.build_switch_msg(True, device_address=1, house_address=HOUSE_ADDRESS) TWO_ON = encoder.build_switch_msg(True, device_address=2, house_address=HOUSE_ADDRESS) THREE_ON = encoder.build_switch_msg(True, device_address=3, house_address=HOUSE_ADDRESS) FOUR_ON = encoder.build_switch_msg(True, device_address=4, house_address=HOUSE_ADDRESS) ON_MSGS = [ALL_ON, ONE_ON, TWO_ON, THREE_ON, FOUR_ON] ALL_OFF = encoder.build_switch_msg(False, house_address=HOUSE_ADDRESS) ONE_OFF = encoder.build_switch_msg(False, device_address=1, house_address=HOUSE_ADDRESS) TWO_OFF = encoder.build_switch_msg(False, device_address=2, house_address=HOUSE_ADDRESS) THREE_OFF = encoder.build_switch_msg(False, device_address=3, house_address=HOUSE_ADDRESS) FOUR_OFF = encoder.build_switch_msg(False, device_address=4, house_address=HOUSE_ADDRESS) OFF_MSGS = [ALL_OFF, ONE_OFF, TWO_OFF, THREE_OFF, FOUR_OFF] def get_yes_no(): """Get a simple yes or no answer""" answer = raw_input() # python2 if answer.upper() in ['Y', 'YES']: return True return False def legacy_learn_mode(): """Give the user a chance to learn any switches""" print("Do you want to program any switches?") y = get_yes_no() if not y: return for switch_no in range(1,5): print("Learn switch %d?" % switch_no) y = get_yes_no() if y: print("Press the LEARN button on any switch %d for 5 secs until LED flashes" % switch_no) raw_input("press ENTER when LED is flashing") print("ON") radio.transmit(ON_MSGS[switch_no], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) print("Device should now be programmed") print("Testing....") for i in range(4): time.sleep(APP_DELAY) print("OFF") radio.transmit(OFF_MSGS[switch_no], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) print("ON") radio.transmit(ON_MSGS[switch_no], OUTER_TIMES, INNER_TIMES) print("Test completed") def legacy_switch_loop(): """Turn all switches on or off every few seconds""" while True: for switch_no in range(5): # switch_no 0 is ALL, then 1=1, 2=2, 3=3, 4=4 # ON print("switch %d ON" % switch_no) radio.transmit(ON_MSGS[switch_no], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) # OFF print("switch %d OFF" % switch_no) radio.transmit(OFF_MSGS[switch_no], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) def switch1_loop(): """Repeatedly turn switch 1 ON then OFF""" while True: print("Switch 1 ON") radio.transmit(ON_MSGS[1], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) print("Switch 1 OFF") radio.transmit(OFF_MSGS[1], OUTER_TIMES, INNER_TIMES) time.sleep(APP_DELAY) def pattern_test(): """Test all patterns""" while True: p = raw_input("number 0..F") p = int(p, 16) msg = encoder.build_test_message(p) print("pattern %s payload %s" % (str(hex(p)), encoder.ashex(msg))) radio.send_payload(msg, OUTER_TIMES, INNER_TIMES) if __name__ == "__main__": print("starting legacy switch tester") print("radio init") radio.init() print("radio as OOK") radio.modulation(ook=True) try: ##pattern_test() legacy_learn_mode() legacy_switch_loop() ##switch1_loop() finally: radio.finished() # END